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251 lines
5.9 KiB
251 lines
5.9 KiB
page ,132
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subttl emfadd.asm - Addition and Subtraction
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;***
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;emfadd.asm - Addition and Subtraction
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;
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; Copyright (c) 1986-89, Microsoft Corporation
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;
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;Purpose:
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; Addition and Subtraction
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;
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; This Module contains Proprietary Information of Microsoft
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; Corporation and should be treated as Confidential.
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;
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;Revision History:
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; See emulator.hst
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;
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;*******************************************************************************
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;-----------------------------------------;
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; ;
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; Addition and Subtraction ;
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; ;
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;-----------------------------------------;
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ProfBegin FADD
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RABRQQ: ; Routine Add Both must see if we have two singles.
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if fastSP
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MOV BX,DX
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XOR BX,Single + 256*Single
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TEST BX,Single + 256*Single
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JNZ RADRQQ
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MOV BX,OFFSET TASRQQ
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JMP [BX]
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endif ;fastSP
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pub RADRQQ ; RoutineAddDouble SI & DI point to valid non-0 reals
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; AX CX are the exponents
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; DL DH are the signs
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if fastSP
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CALL CoerceToDouble ; insure that both args are double
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endif ;fastSP
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SUB AX,CX ; See which number is larger
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JL short DIBIG
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XCHG esi,edi ; Swap pointers to operands
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XCHG DH,DL ; Swap signs
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ADD CX,AX ; CX = larger exponent (Tentative result)
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NEG AX
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pub DIBIG ; DI = larger, CX = expon, DH = sign
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NEG AX
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CMP AX,64+3 ; Is smaller argument significant?
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JLE short SIGNIF
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PUSH ebp ; Not signif so result is at DI except for
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PUSH edx ; rounding. ROUND assumes old BP and Sign on
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MOV SI,Expon[edi] ; stack. Exponent in SI
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MOV BP,1 ; Other argument collapses into a sticky bit
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XOR DL,DH ; if signs of operands differ bit is negative
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JNS short GetOpMantissa
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NEG BP
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pub GetOpMantissa
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MOV DX,MB0[edi]
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MOV CX,MB2[edi]
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MOV BX,MB4[edi]
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MOV DI,MB6[edi]
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OR BP,BP
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JS short NegativeStickyBit
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JMP ROUND
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pub NegativeStickyBit
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SUB DX,1 ; Must propagate negative sticky bit
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SBB CX,0
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SBB BX,0
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SBB DI,0
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JMP NODRQQ
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pub SIGNIF
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; Now things look like this:
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; SI has pointer to smaller operand
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; DI has pointer to larger operand
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; AX has exponent difference ( 0 <= CL <= 53 )
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; CX has exponent
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; DH has sign
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PUSH ebp ; Need all the registers
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PUSH edx ; Save sign
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PUSH ecx ; Save exponent
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XOR DL,DH ; Must eventually know whether signs are same
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PUSHF
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MOV BP,AX ; Need all 8-bit registers now
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; Load smaller operand
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LODS word ptr ds:[esi]
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MOV DX,AX
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LODS word ptr ds:[esi]
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MOV CX,AX
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LODS word ptr ds:[esi]
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MOV BX,AX
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LODS word ptr ds:[esi]
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XOR si,si ; BP Will be round,guard, & sticky bits (=0)
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XCHG bp,si ; Done with Pointer to small. so SI = shift cnt
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; hi lo 0
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; Smaller operand now in AX:BX:CX:DX:BP with implied bit set, SI has shift count
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OR si,si
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JZ ALIGNED ; Alignment operations necessary?
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pub CHKALN
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CMP si,14 ; Do shifts of 16 bits by word rotate
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JL short BYTSHFT ; If not enough for word, go try byte
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OR BP,BP ; See if we're shifting something off the end
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JZ short NOSTIK
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OR DX,1 ; Ensure sticky bit will be set
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pub NOSTIK
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MOV BP,DX
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MOV DX,CX
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MOV CX,BX
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MOV BX,AX
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XOR AX,AX
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SUB si,16 ; Counts for 16 bit shifts
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JA short CHKALN ; If not enough, try again
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JZ short ALIGNED ; Hit it exactly?
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JB short SHFLEF ; Back up if too far
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pub BYTSHFT
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CMP si,6 ; Can we do a byte shift?
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JL short BITSHFT
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XCHG BP,AX
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OR AL,AL
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JZ short NSTIK
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OR AH,1
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pub NSTIK
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MOV AL,AH
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MOV AH,DL
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XCHG BP,AX
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MOV DL,DH
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MOV DH,CL
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MOV CL,CH
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MOV CH,BL
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MOV BL,BH
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MOV BH,AL
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MOV AL,AH
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XOR AH,AH
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SUB SI,8
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JA short BITSHFT
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JZ short ALIGNED
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; To get here, we must have used a byte shift when we needed to shift less than
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; 8 bits. Now we must correct by 1 or 2 left shifts.
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pub SHFLEF
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SHL BP,1
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RCL DX,1
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RCL CX,1
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RCL BX,1
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RCL AX,1
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INC SI
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JNZ SHFLEF ; Until DI is back to zero (from -1 or -2)
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JMP SHORT ALIGNED
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pub BITSHFT
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ifdef i386
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and esi,0FFFFh ; clear upper half of esi
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endif
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XCHG ecx,esi ; Swap count into CX, lo3:lo4 into DI
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TEST BP,3FH ; See if we're shifting stuff off the end
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JZ short SHFRIG
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OR BP,20H ; Set sticky bit if so
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pub SHFRIG
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SHR AX,1
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RCR BX,1
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RCR SI,1
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RCR DX,1
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RCR BP,1
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LOOP SHFRIG ; Do 1 to 5 64-bit right shifts
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MOV CX,SI ; Get back CX = lo3:lo4
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pub ALIGNED
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MOV esi,edi ; Address of larger operand
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MOV DI,AX ; Now DI = msb:mid
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TEST BP,3FFFH ; Collapse LSBs into sticky bit
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JZ short GETSIGN
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OR BP,1 ; Set sticky bit
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pub GETSIGN
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POPF ; Recover XOR of signs
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; 80286 errata for POPF shouldn't
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; apply because interrupts should be
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; turned on in this context
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POP eax ; Recover Exponent
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; Sign flag is XOR of signs
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JS short SUBMAN ; Subtract mantissas if signs are different
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ADD DX,[esi]
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ADC CX,[esi+2]
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ADC BX,[esi+4]
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ADC DI,[esi+6]
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JNC short JROUND ; Done if no overflow
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; Have a carry, so result must be shifted right and exponent incremented
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RCR DI,1
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RCR BX,1
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RCR CX,1
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RCR DX,1
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RCR BP,1
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JNC short STIKYOK
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OR BP,1 ; Shifted out the sticky bit so reset it.
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pub STIKYOK
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INC AX ; Bump exponent.
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; JMP JROUND ; and go round. (need not normalize)
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pub JROUND
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MOV SI,AX ; We must have SI equal to exponent
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JMP ROUND ; on our way to Round
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pub SUBMAN
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; Subtract mantissas since signs are different. We'll be subtracting larger
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; from smaller, so sign will be inverted first after the subtraction.
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SUB DX,[esi]
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SBB CX,[esi+2]
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SBB BX,[esi+4]
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SBB DI,[esi+6]
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JNC short JNORM ; Won't carry if we mixed up larger and smaller
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; As expected, we got a carry which means we original sign was OK
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XOR SI,SI ; We'll need a zero, so let's use SI
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NOT DI
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NOT BX
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NOT CX
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NOT DX
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NEG BP ; Carry clear if zero
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CMC ; Set CY
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ADC DX,SI
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ADC CX,SI ; Propagate carry
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ADC BX,SI
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ADC DI,SI
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MOV SI,AX ; Get exponent to SI
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JMP NODRQQ ; Go normalize
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pub JNORM
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MOV SI,AX ; Exponent in SI
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POP eax
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XOR AH,SIGN ; invert sign bit (on top of stack)
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PUSH eax
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JMP NODRQQ ; and go normalize
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ProfEnd FADD
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